Objective

Cardiac arrest (CA) is a major health burden with brain damage being a significant contributor to mortality. We found lysophosphatidylcholine (LPC), including a species containing docosahexaenoic acid (LPC-DHA), was significantly decreased in plasma post-CA, supplementation of which significantly improved neurological outcomes. The aim of this study is to understand the protective role of LPC-DHA supplementation on the brain post-CA.

Methods

We first evaluated associations between the plasma level of LPC-DHA and neurological injury and outcomes of human CA patients. We then utilized a rat CA model and cell cultures to investigate therapeutic and mechanistic aspects of plasma LPC-DHA supplementation.

Results

We found that decreased plasma LPC-DHA was strongly associated with neurological outcomes and disappearance of difference between gray and white matter in the brain after CA in human patients. In rats, the decreased plasma LPC-DHA was associated with decreased levels of brain LPC-DHA after CA, and supplementing plasma LPC-DHA normalized brain levels of LPC-DHA and alleviated neuronal cell death, activation of astrocytes, and expression of various inflammatory and mitochondrial dynamics genes. We also observed deceased severity of metabolic alterations with LPC-DHA supplementation using untargeted metabolomics analysis. Furthermore, LPC treatment showed a similar protective effect for neurons and astrocytes in mixed primary brain cell cultures.

Interpretation

The observed neuroprotection accompanied with normalized brain LPC-DHA level by plasma supplementation implicate the importance of preventing the decrease of brain LPC-DHA post-CA for attenuating brain injury. Furthermore, the data supports the causative role of decreased plasma LPC-DHA for brain damage after CA.

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